3rd International Workshop on Image Sensor and Systems (IWISS2016)

-Frontier of image sensors based on conceptual breakthroughs inspired by applications-

 

Sponsored by Group of Information Photonics (IPG) +CMOS Working Group, the Optical Society of Japan

Co-sponsored by Technical Group on Information Sensing Technologies (IST), the Institute of Image Information and Television Engineers (ITE)

In cooperation with IEEE SSCS Japan Chapter and innovative Photonics Evolution Research Center (iPERC)

 

Chair (IPG): Prof. Hirotsugu Yamamoto (Utsunomiya Univ., Japan)

Chair (ITE): Prof. Shigetoshi Sugawa (Tohoku Univ., Japan)

Vice-Chair (IPG): Prof. Hiroyuki Suzuki (Tokyo Institute of Technology, Japan)

Vice-Chair (ITE): Prof. Keiichiro Kagawa (Shizuoka Univ., Japan)

Technical Program Chair: Prof. Min-Woong Seo, Prof. Keita Yasutomi (Shizuoka Univ., Japan), and Prof. Shoji Kawahito (Shizuoka University, Japan)

Student Volunteering Chair: Mr. Futa Mochizuki (Shizuoka Univ., Japan)

 

Program:

Nov. 17 (THR)

9:00  Registration opens

9:40-9:50  Opening remarks by IPG Chair (Prof. Hirotsugu Yamamoto, Utsunomiya Univ., Japan)

9:50-10:30  Plenary talk (40-min)

9:50-10:30 [Invited-01] Ion implantation technology for image sensors (Prof. Nobukazu Teranishi, Dr. Genshu Fuse*, and Dr. Michiro Sugitani*, Shizuoka Univ./ Univ. of Hyogo, *Sumitomo Heavy Industries Ion Technology Co., Ltd., Japan)

10:30-12:00  Stack technology (90-min)

10:30-11:00 [Invited-02] 3D-stacking architecture for low-noise high-speed image sensors (Prof. Shoji Kawahito, Shizuoka Univ., Japan)

11:00-11:30 [Invited-03] A Dead-time free global shutter stacked CMOS image sensor with in-pixel LOFIC and ADC using pixel-wise connections (Prof. Rihito Kuroda, Mr. Hidetake Sugo, Mr. Shunichi Wakashima, and Prof. Shigetoshi Sugawa, Tohoku Univ., Japan)

11:30-12:00 [Invited-04] 3D stacked image sensor featuring low noise inductive coupling channels (Prof. Masayuki Ikebe, Dr. Daisuke Uchida, Dr. Yasuhiro Take*, Prof. Tetsuya Asai, Prof. Tadahiro Kuroda*, and Prof. Masato Motomura, Hokkaido Univ., *Keio Univ., Japan)

12:00-13:20  Lunch (80-min)

13:20-14:50  Low-light and photon counting imaging (90-min)

13:20-13:50 [Invited-05] Low-noise CMOS image sensors towards single-photon detection (Prof. Min-Woong Seo, Prof. Keiichiro Kagawa, Prof. Keita Yasutomi, and Prof. Shoji Kawahito, Shizuoka Univ., Japan)

13:50-14:20 [Invited-06] Bioluminescence imaging in living animals (Prof. Takahiro Kuchimaru, Prof. Tetsuya Kadonosono, Prof. Shinae Kizaka-Kondoh, Tokyo Inst. of Tech., Japan)

14:20-14:50 [Invited-07] Restoration of a Poissonian-Gaussian color moving-image sequence (Prof. Takahiro Saito and Mr. Takashi Komatsu, Kanagawa Univ., Japan)

14:50-15:00  Break (10-min)

15:00-16:30  Low power imaging (90-min)

15:00-15:30 [Invited-08] Always-on CMOS image sensor: energy-efficient circuits and architecture (Prof. Jaehyuk Choi, Sungkyunkwan Univ., Korea)

15:30-16:00 [Invited-09] Low-voltage high-dynamic-range CMOS imager with energy harvesting (Prof. Chih-Cheng Hsieh and Mr. Albert Yen-Chih Chiou, National Tsing Hua Univ., Taiwan)

16:00-16:30 [Invited-10] Power-efficient Delta Readout Scheme utilizing Multi-Column-Parallel SAR ADCs (Mr. Hyun-June Kim, Mr. Sun-Il Hwang, and Prof. Seung-Tak Ryu, KAIST, Korea)

16:30-18:00  Poster session as ITE Open Session (90-min)

16:30-18:00  Poster session

[Poster-01] Dynamic Photometric Stereo Method using Multi-Tap CMOS Image Sensor (Takuya Yoda, Hajime Nagahara, Rin-ichiro Taniguchi (Kyushu Univ.), Keiichiro Kagawa, Keita Yasutomi, Shoji Kawahito (Shizuoka Univ.))

[Poster-02] Depth Map Estimation and Restoration of an Improved-quality Image from Multi-aperture Images (Kuniyuki Kugenuma, ○Takashi Komuro (Saitama Univ.), Bo Zhang, Keiichiro Kagawa, Shoji Kawahito (Shizuoka Univ.))

[Poster-03] Poster, A Dedicated Image Processing Engine Stacked with CMOS Image Array at 40nm CMOS Imager Technologies (Biay-Cheng Hseih, Khoi Le, Keith Honea, Sergio Goma (QCOM), RJ Lin, Chin-Hao Chang, Kuo-Yu Chou, Calvin Chao (TSMC), Sami Khawam, Hasib Siddiqui (QCOM))

[Poster-04] Lensless Light-field Imaging with Fresnel Zone Aperture (Yusuke Nakamura, Takeshi Shimano, Kazuyuki Tajima, Mayu Sao, Taku Hoshizawa (Hitachi, Ltd.))

[Poster-05] High-Speed Imaging using CMOS Image Sensor with Quasi Pixel-Wise Exposure (Toshiki Sonoda, Hajime Nagahara (Kyushu Univ.), Kenta Endo, Yukinobu Sugiyama (Hamamatsu Photonics K.K.), Rin-ichiro Taniguchi (Kyushu Univ.))

[Poster-06] A Time-Resolved NIRS Measurement using High Time-Resolution CMOS Lock-In Pixel Image Sensor (Zhonghui Liu, Min-Woong Seo, Masatsugu Niwayama, Keiichiro Kagawa, Keita Yasutomi, Shoji Kawahito (Shizuoka Univ.))

[Poster-07] SOI based high energy particle imaging with continuous time integration variable gain pixel (Sumeet Shrestha, Hiroki Kamehama, Keita Yasutomi, Keiichiro Kagawa, Nobukazu Teranishi (Shizuoka University), Aayaki Takeda, Takeshi Go Tsuru, Yasuo Arai (Kyoto University), Shoji Kawahito (Shizuoka University))

[Poster-08] A Lateral Electric Field Charge Modulator with Bipolar-gates for High Time-Resolved Imaging (Yuki Morikawa, Keita Yasutomi, Shoma Imanishi, Taishi Takasawa, Keiichiro Kagawa, Nobukazu Teranishi, Shoji Kawahito (Shizuoka Univ.))

[Poster-09] An 8-tap CMOS Lock-In Pixel CMOS Image Sensor for Real-Time Biomedical Imaging Application (Yuya Shirakawa, Min-Woong Seo, Keita Yasutomi, Keiichiro Kagawa, Nobukazu Teranishi, Syoji Kawahito(Shizuoka Univ.))

[Poster-10] Optical Color Filter Based on Surface Plasmon Resonance Using Corrugated Metallic Thin Film for Image Sensor (Atsutaka Miyamichi, Atsushi Ono, Hiroki Kamehama, Keiichiro Kagawa, Keita Yasutomi, Shoji Kawahito (Shizuoka Univ.))

[Poster-11] A Design of Image Sensor for In-Pixel Background Suppression and Frequency Detection (Unghyun Kim, Makoto Ikeda (The Univ. of Tokyo))

[Poster-12] Light shielding Al alloy film for image sensor (Yoko Shida, Hiroshi Goto, Mototaka Ochi (KSL), Hiroyuki Okuno, Moriyoshi Kanamaru (KOBELCO RESEARCH INSTITUTE, INC))

[Poster-13] Synchronization-free single-shot detection of imperceptible AR markers in a high-speed video display (Tsutomu Kusanagi, Shingo Kagami, Koichi Hashimoto (Tohoku Univ.))

[Poster-14] Multiple temporal resolution imaging and processing for obtaining HDR image with low motion blur and noise (Takuro Kosaka, Takayuki Hamamoto(TUS))

[Poster-15] Design and fabrication of a low power terahertz imager based on 180 nm CMOS process technology (Kosuke Wakita, Masayuki Ikebe (Hokkaido Univ.), Yuma Takida, Hiroaki Minamide (RIKEN), Eiichi Sano (Hokkaido Univ.))

[Poster-16] Optimization of Pixel Structure for Reducing Knee Point Variation in the Logarithmic Response of Linear-Logarithmic CMOS Image Sensor (Myunghan Bae, Byoung-Soo Choi, Sang-Hwan Kim, Jimin Lee, Chang-Woo Oh, Jang-Kyoo Shin (Kyungpook National Univ.))

[Poster-17] Wide Dynamic Range CMOS Image Sensor Based on Dual Exposure Technique Using Averaging Circuits (Sang-Hwan Kim, Byoung-Soo Choi, Myunghan Bae, Jimin Lee, Chang-Woo Oh, Jang-Kyoo Shin (Kyungpook National Univ.))

[Poster-18] CMOS pixel aperture structure for extracting depth information (Byoung-Soo Choi, Myunghan Bae, Sang-Hwan Kim(Kyungpook National Univ.), Seunghyuk Chang, JongHo Park, Sang-Jin Lee (CISS), Jang-Kyoo Shin (Kyungpook National Univ.))

[Poster-19] 190-1100 nm waveband multispectral imaging system using high UV-light resistance 94dB dynamic range CMOS image sensor (Yasuyuki Fujihara, Satoshi Nasuno, Shunichi Wakashima, Yusuke Aoyagi, Rihito Kuroda, Shigetoshi Sugawa (Tohoku Univ.))

[Poster-20] A High-speed Low-power CMOS Image Sensor with Delta and Interpolation Readout Scheme (Hyeon-June Kim, Sun-Il Hwang, Seung-Tak Ryu (KAIST))

18:00-18:10  Break (10-min)

18:10-20:00  Reception (110-min)

18:10-20:00  Reception

Poster award

Best Outstanding Poster Award
Yusuke Nakamura et al., Hitachi, Ltd.
“Lensless Light-field Imaging with Fresnel Zone Aperture”

Outstanding Poster Award
Yuya Shirakawa et al., Shizuoka University “An 8-tap CMOS Lock-In Pixel CMOS Image Sensor for Real-Time Biomedical Imaging Application”

Outstanding Poster Award
Toshiki Sonoda et al.,  Kyushu University “High-Speed Imaging using CMOS Image Sensor with Quasi Pixel-Wise Exposure”

 

Nov. 18 (FRI)

10:00-11:30  Time-resolved imaging (90-min)

10:00-10:30 [Invited-11] The ultimate frame rate of silicon image sensors (Prof. Goji Etoh, Osaka Univ., Japan/ Ritsumeikan Univ., Japan, Mr. Anh Quang Nguyen, Ritsumeikan Univ., Japan, Mr. Thi Yen Le, Osaka Univ., Japan, Prof. Yoshinari Kamakura, Osaka Univ., Japan, Prof. Kazuhiro Shimonomura, Ritsumeikan Univ., Japan)

10:30-11:00 [Invited-12] Various ultra-high-speed imaging and applications by streak camera (Mr. Koro Uchiyama, Hamamatsu Photonics K. K., Japan)

11:00-11:30 [Invited-13] Clock management in high range resolution time-of-flight range imagers (Prof. Keita Yasutomi and Prof. Shoji Kawahito, Shizuoka Univ., Japan)

11:30-13:00  Lunch (90-min)

13:00-14:00  Optical and biomedical imaging-I (60-min)

13:00-13:30 [Invited-14] Studies on adaptive optics and application to the biological microscope (Prof. Masayuki Hattori and Prof. Yosuke Tamada, National Inst. for Basic Biology, Japan)

13:30-14:00 [Invited-15] Application of light-sheet microscopy to cell and development biology (Prof. Shigenori Nonaka, National Inst. for Basic Biology, Japan)

14:00-14:20  Break (20-min)

14:20-15:50  Optical and biomedical imaging-II (90-min)

14:20-14:50 [Invited-16] Non-contact video based estimation for heart rate variability spectrogram using ambient light by extracting hemoglobin information (Prof. Norimichi Tsumura, Chiba Univ. , Japan)

14:50-15:20 [Invited-17] Development of ultraviolet- and visible-light one-shot spectral domain optical coherence tomography and in situ measurements of human skin (Mr. Heijiro Hirayama or Mr. Sohichiro Nakamura, FUJIFILM Corp., Japan)

15:20-15:50 [Invited-18] Extremely compact hyperspectral camera for drone and smartphone (Prof. Ichiro Ishimaru, Kagawa Univ., Japan)

15:50-16:00  Closing remarks by ITE Information Sensing Chair (Prof. Shigtoshi Sugawa, Tohoku Univ., Japan)

Rem: Invited papers may include some contents that have been already presented in other journals or conferences.